Maize Milling Technologies - Food Fortification...
Transcript of Maize Milling Technologies - Food Fortification...
Maize Milling Technologies
Small, Medium and Large
Scale MillsQuentin Johnson
Smarter Futures – Food Fortification Initiative
Maize kernel compositionWeight distribution of main parts of the kernel
Structure Percent weight distribution
Pericarp 5-6
Aleurone 2-3
Endosperm 80-85
Germ 10-12
The endosperm is the main component of de-hulled maize flour
Source: FAO
Typical Extraction Rates for Maize meal
Mill size Maize meal Extraction Rate %
Kernel Components for conversionto maize flour
Large 70 - 75 Endosperm with some pericarp and germ
Medium 65 - 70 Endosperm, pericarp and germ
Small 60 - 65 Endosperm little or no pericarp and germ
NOTE: Pericarp and germ components can influence the taste of the cooked porridgeBitterness is one of the characteristic tastes from the pericarp and germ The purer the endosperm used to mill into flour the lower the bitterness taste
Criteria for establishing the cut-off pointsMill Size Criteria Cut-off point/Category
Large Rated capacity*, Registered business with regulatory bodies (FDA, NBS, Revenue agency, etc.)
50* tons per day grindingBranded flour product for sale
Medium Rated capacity*, Registered business with regulatory bodies (FDA, NBS, Revenue agency, etc.)
20 – 50* tons per day grindingBranded flour product for sale
Small Rated capacity*, Registered business with regulatory bodies (FDA, NBS, Revenue agency, etc.)
Less than 20* per day grindingBranded flour product for sale
Small Rated capacity*, May be registered Less than 20* per day grindingToll milling (fee for service)Unbranded flour
*Based on 24 hour operation per day
Maize Milling Rated Capacities and Development Partners
Mill Size Rated Capacity(MT per day)
Development partners
Large Scale 50 FFI, GAIN
Medium Scale 20 - 50 FFI, HKI, MEDA, PHC, Sanku, WFP
Small Scale Less than 20* Sanku, WVI, UNICEF, other
* In the case of maize milling the cut-off point needs to be clarified based onofficial status of mills (registered or not with regulatory bodies such as FDA, Bureau of standards, etc.)
Large Maize Mill (Registered business) Process Flow - Automated
1. Maize Reception and storage
2. Cleaning
3. Dehulling (Degermination)
4. Roller Milling and or Hammermill
5. Sifting
6. Fortification (Conventional feeder/conveyor)
7. Quality Control Laboratory
8. Packaging in labelled bags and registered with Bureau of Standards or country FDA
9. Warehousing and Distribution
Large Maize Mill - Feeders
Medium Maize Mill Flow Chart(Commercial registered business)
1. Maize Cleaning
2. Dehulling (degermination)
3. Roller Milling and or Hammermill
4. Sifting
5. Fortification (conventional feeder/conveyor or Sanku System machine post dehulling)
6. Limited Quality Control testing
7. Packaging in labelled bags and registered with Bureau of Standards or country FDA
8. Limited distribution within country and at district level
NOTE: Medium mills can be both automated and separate dehulling and milling operations
Medium Size Mills – maize storage and cleaning
Medium Size Mills – Milling and Feeder
Small Scale Milling(Commercial registered business – Manual operation)
1. Maize cleaning (machine or by hand)
2. Dehulling
3. Single hammermill (or roller mill)
4. Fortification (Sanku System or scoop and bucket method)
5. Packaging in bags with trade name and registered with bureau of standards or FDA)
6. No Quality Control laboratory and or limited testing
7. Selling flour in branded label bags at mill site or distributed to retail shops – Local urban and peri-urban areas
Small Scale Mill – Posho mill
Maize Milling: Product extraction rates from dehulling• Whole Grain: 100%
• De-hulled Maize grits, small mill dehuller: 65-70% extraction
• De-hulled Maize grits, large mill dehuller: 75-85% extraction
• Small mill de-hullers remove a proportion of the endosperm with the germ and some bran fractions.
• The degree of de-hulling will change the characteristics of the final maize flour in terms of cooking properties, flavour, taste and nutritional value.
• The lower the extraction rate from de-hulling the lower the nutritional value of the final flour for porridge in terms of protein, essential amino acids, minerals, and vitamins
Maize Grain – Vitamin Content (typical)
Vitamin Concentration (mg/kg) CommentA 2.5 Oil soluble found in germE 30 (IU) Oil soluble found in germB1 3.8 Water solubleB2 1.4 Water solubleB3 28 Water solubleFolic Acid 0.3 Water soluble
B12 is not found in maize
Source: AACC et al
Maize Grain– Mineral Content (typical)Mineral Concentration (mg/100 g) Comment
P 299.6 ± 57.8 80% as Phytate
K 324.8 ± 33.9
Ca 48.3 ± 12.3
Mg 107.9 ± 9.4
Na 59.2 ± 4.1
Fe 4.8 ± 1.9 Key mineral (WHO)
Cu 1.3 ± 0.2
Mn 1.0 ± 0.2
Zn 4.6 ± 1.2 Key mineral (WHO)
Source: FAO
Nutrient Losses during milling – Maize Meal
Nutrient Large Mills Medium Mills Small Mills*
Protein 20% 20% 30-35%
Fat 60% 60% 65%
Iron 66% 66% 75%
Zinc 66% 66% 70%
Folic Acid 50% 50% 65%
Vitamin A 69% 69% 75%
* The losses are higher in small mills due to the greater degree of dehulling
Conclusions• Roller milling of maize produces maize flour with different
organoleptic characteristics from flour milled in hammer mills
• The preference for low extraction maize flour has a significant influence on the nutritional value of the final cooked porridge as consumed particularly low intrinsic values for minerals and key vitamins such as vitamin A and folic acid
• Maize flour fortification is an essential tool to help address micronutrient malnutrition in the African context